TW200850010A - Formatting and compression of content data - Google Patents

Abstract

Embodiments include a method and system for reducing the quantity of data used to reproduce rich content formatted for display, such as a web page, on a target device. Reducing the quantity of data may be by translating text based formatting instructions into a numerical based formatting instruction format, resizing any visual content data appropriately for display on a screen of the target, and/or compressing the translated and resized content data. The quantity of content data may be reduced before transmitting the content data to the target device.

Description

200850010 IX. Description of the invention: [Technical field to which the invention pertains] The technical field to which the present invention pertains is the formatting and compression of data. The application for this month is to format and compress data to optimize the data transmitted over the wireless network. [Prior Art] Regarding the Internet, most designers do not consider the size of content materials (such as 'graphics, text, animation, video and audio data') on the webpage because they think that most users are via high speed. Broadband Internet, road connections (such as 'DSL, cabie modems, ΤΙ, E1, or other high-speed connections) to access web pages, and believe that low-speed dial-up connections will become increasingly rare. However, for devices such as mobile phones, the connection speed is usually lower than that of the broadband Internet. This is due to a number of factors, such as bandwidth limitations, network resource limitations, severing restrictions, and current wireless network protocols. For example, when using GSM (Global System for Mobile Communications) 2 5gprs (integrated packet radio service technology) connection, the f-material transmission rate is similar to the 9,6 (10) baud data system. A slow data channel limits the users who want to quickly access the data. The S mobile phone industry is attempting to meet customer needs with faster data transmission by installing faster data connection network performance, such as McAfee (Enhanced Data Rate GSM Evolution Technology), Umts (Global Action) Pass = System), HSDPA (High Speed Down Packet Access), and other systems that provide access to more than two feeds. The upgrade of the network requires the following two real 94303 5 200850010 quality expenditures ····················································· Road compatible new line == data transmission of data machine " < direct DSL or regulation line (four) state transmission ^ ^ low series _ (four) connection (there are another problem related to users of Delta* i, r machine It is the connection speed of the data infrastructure between the Internet and the cellular, but the lack of access to the Internet. The second question of the same information Lt=2 (m°biie device) It is in the delivery), _ _ j, WA P (Wireless Application Coordination), and other data standards. This is too big to be handled to install a small screen with limited space. And the memory is currently used for different mobile devices, the lack of compatibility, which will prevent the webpage from setting up == designer) how to control or test the content to be displayed, and outside, not all browsers Or the translator's two-force. This is the content. This results in a format containing the format of the (four) 鳞 相 网页 常常 常常 常常 常常 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = In the C industry, the screens used in mobile devices are different in terms of screens (which are related to emails), off, number of pixels, and resolution. 94303 6 200850010 Differences. Today, web designers design web pages with 800x640 or 1024x768 pixels. When displayed on a larger format screen, the data is surrounded by blanks. Currently, website designers ignore the large differences in screen size, aspect ratio, number of pixels, resolution, and scale of the action device, so that the display cannot handle the data to be displayed. In addition, displaying web pages on screens of different sizes may result in web page aspect ratios and changes in elements on the web page. When the screen is smaller or larger than the original image or has a different ratio to its horizontal and vertical dimensions, the # image displayed on a non-computer screen may be distorted. Often, distortions often occur when zooming an image of a website for display on a small screen on a mobile phone or an HDTV screen designed for a TV show. SUMMARY OF THE INVENTION A specific embodiment is a method for optimizing content for a target device, comprising: obtaining at least one content element from a content source, each content element comprising a number Text-based formatting instructions and visual content materials; translating the text-based formatting instructions of the various content elements into a numerical-based format that can be interpreted by the target device Numeric-based formatting instruction; scaling at least a portion of the visual content material based on a capability profile of the target device; and transmitting the numerically-based formatted instructions and visual content data to the target The device causes the target device to depict the source of the content. Another embodiment is a formatting and conversion system that includes a 7 94303 200850010 interpreter configured to read a content source file for a number of text-based formatting An instruction and visual content material for at least one content element I; a translator configured to translate the text-based formatting instructions of each content element f into a numerical-based format that can be interpreted by a target device a data file converter that is capable of scaling at least a portion of the visual content data based on at least one size of a display of the target device; and a transmitter configured to be transmittable The value-based formatting instructions and visual content data are sent to the f target device. Another embodiment is a system for optimizing rich content for transmission and reproduction to a target device, comprising: means for obtaining at least one content element from a content source, each content element comprising a number Text-based formatting instructions and visual content material; means for translating the text-based formatting instructions into numerically formatted instructions usable by the target device; for displaying based on the target device At least one dimension of the display to scale a component of at least a portion of the visual content material, and to transmit the numerically-based formatted instructions and the visually-to-target device to the target device such that the target device can render the content The component of the source. Another specific embodiment is a computer readable medium containing a plurality of programming instructions 'executing the programming instructions to enable the machine to: obtain at least one content element from a content source, each content element comprising a plurality of text-based , instruction and visual content data; the text-based formatting index becomes a numerically-based formatted finger that can be interpreted by the target device 94303 8 200850010; based on the target, the installation of the fs l _ Not at least one size to scale at least one of the visual content leans. As known, and transmitting the value-based formatted instructions and the visual content material to the target device, the target device can render the content source. The physical embodiment is a method comprising: parsing the first text L: the piece contains a plurality of tags 'and wherein the files are in the tag; the second file is retrieved; generating the integration k... Change the / in the file - the production system contains the repaired piece of the day to include the second device that is referenced. The line network transmission has generated the third file to the target. The specific embodiment is a system, and the translation system is configured to parse the first file to solve the problem, and the file includes a plurality of labels, and At least one of the special tags returns to the second file. The file is carefully filed, and the file is taken from the first file: the coffee bean is configured to be produced by modifying the piece. ^ people δι a label to contain the reference to the second file i the first file and the second text, pass the song to the y) brother a file, with «-' its system configured to be accessible through the helmet The third file of this is to the county. The wire feed wheel has been produced. Another embodiment is a system: a component of a file, wherein the first file comprises: a component for parsing the brother, for generating a component that integrates the first file and the file, The middle plug "" into the younger brother - the third / middle generation of the file contains a modification of the first file 94303 9 200850010 h, a label to contain the second file referenced; and, for use via the wireless network The path transmits the third file that has been generated to the component of the target device. Another embodiment is a computer readable medium comprising a plurality of programming instructions, the executing of the programming instructions to enable a machine to: parse a first file, wherein the first file comprises a plurality of tags, and wherein the tags are Retrieving at least one of the second files; retrieving the second file; generating a third file that integrates the first and second files, wherein the generating comprises modifying at least one of the first files to include The second file is referenced; (and the third file that has been generated is transmitted to the target device via the wireless network. No. [Embodiment] A specific embodiment of the method and system disclosed herein is for reduction Some are used to reproduce richly formatted content (eg, web pages) for display on a target device. The amount of data can be reduced by translating formatting instructions into a compact equivalent instruction format (small f〇〇tprint Calling the format, zooming in any visual content that is appropriate for display on the target device's screen, and/or compressing the translated and scaled content. Embodiments of the invention are configured to cooperate with methods and systems for optimizing rich internal communication for transmission and reproduction on a target device by obtaining content element material and formatting of each rich content element Directing and translating the formatting instructions of each rich content element into a compact equivalent instruction that can be resolved by the target device. Based on at least one screen size of the target device, any visual content material that is rich in content elements can be scaled The inner valley element data is used to process the content element data of each rich content element, 94303 10 200850010 and I reduce the content element data. Then, the translated instructions and the content element data processed for each rich content element can be stored in The rich content can be properly greened on the data slot on the target device. " In some embodiments, the compact type of value f and the control command readable by the target device are used instead of formatting the rich content and Control instructions, which reduce the total number of bits needed to trace the rich content to the target device. If needed, The content can also be scaled for the target device and further compressed to minimize the total number of bits of data to be transferred between the content provider (4) and the mobile device. This results in the transmission of rich content to the target. The webpage of the device can remove 9% of the total number of bits while the webpage can still be rendered on the target device in a usable form. In addition, the content is zoomed for the target device before transmitting content such as images or video to the target device. This content can reduce the processing required by the mobile device to view the content viewed on the device screen, because any content to be displayed on the mobile device has been optimized. Zooming of a television display. In the patent specification, content refers to information obtained from an electronic source as information and may include, for example, rich content obtained by an internet website, including graphically formatted textual information. ), video, video, video and audio data. The content may also contain information for further access to the content, such as links, URLs (Uniform Resource Banking) or forwarding address information. A web page or a rich content file can contain multiple rich content elements. 94303 11 200850010 A "rich content element" is a piece of rich content that contains content material and formatting instructions associated with the content material of the rich content element to define how to ride the user's content. For example, rich content elements can be formatted text, images or photos, advertisements, audio tracks (s〇und (4), animations, video content clips (vide〇clip), etc. "Visual content material"' means any use Displayed as content data for still or dynamic visual images. For example, visual content data includes images, graphics, graphics or graphics, maps, photos, video content segments, motion pictures (an deleted image) or computer graphics, computer generated graphics Dynamic images, and other such materials. b Private deduction refers to the instructions used to define how to present data to the user. The instructions used may depend on the type of data. For example, when the content:: is = In addition to other features, the formatting instructions can define colors:::, italics, bold characters, and the bottom line. In the content data is view 2: for example, the formatting command can define whether the display image is framed, can When the image is displayed in white, whether the image is vivid or not, so that it appears to be an audio material, for example, the format command can be used to display the display of the specific image - when to play, when to do And often depends on the type of editing used to make the instrument (4), such as the m-type format command "representative silk style instruction, quasi-universal markup language" Τ: (two words), XML, s (standard, or "Text-based instructions; signed in the text 7 铩 iron is also used in this patent specification to refer to 94303 12 200850010 text-based formatting instructions.

"Compact equivalent instruction" refers to a set of formatting instructions that have a numeric representation (numeric representationati〇n), also known as a bit-level representation (bitlevel representation), where each instruction uses only a few A few bytes or bits such that the number of data bits used to represent the instructions is less than the equivalent of a text-based formatted instruction form (eg, html). These compact equivalents The representation can be in XML notation (eg, to present instructions to the user in an easy-to-edit format), or to read the digital representation of the file, or both. U _ In this patent specification, "target device, used to refer to A variety of different types of devices that can be used to describe rich content. For example, the target device can be a line. „S DA personal electricity month Hungarian, portable tablet computer, multimedia player. Second, a game console, or other device (example # 'set-top box and TV), or any /, He has enough to describe the rich content of the device ό > "green" and "edge map" is used to refer to the reproduction or display content. The specific ν re-creation and display as the content provider wants to set the injury in the user The content of the content of the cognition. For example, the content of the content is limited and limited.) The audio signal is reproduced as the sound of the speaker output by the device speaker. The interpretation channel 110 brakes - the second image 120, and the data file format. Second mother--the location of the rich content element (for example, where the inner element should be), the context (for example, each 94303 13 200850010 2 what is the element), and its relationship to other content elements if necessary. The information is obtained by reading and interpreting the original content source file of the xml or HTML tag instructions contained in the content source. The rich content elements can be additionally scaled, reformatted and/or quantized to be based on the target device. The information of 160 can be displayed for display on the target device. When appropriate, the functions of S 110 call instruction translator 12 and data file formatter 13〇 are interpreted, and the necessary information is provided to these functions to enable optimization of these functions. The content of the crypto 6 is reproduced on the target device. The interpreter 110 can also output the numerical data file 15 based on the above =. For example, consider the source of the bean content, such as an internet web page. The web page can contain different colors. Content elements, such as text, images, or photos, view A Neigu tablets #又,广告,动昼, data entry barriers such as search or talk sheds, drop-down menus, hotspots, and hidden in another element Link to other web pages. The web page usually has an overall format, where the specific location of each element on the web page is specified by the web page. The rich content (for example, appearing on the web page) It is usually formatted by a person familiar with the markup language, formatted by text-based instructions or tags. Some of the most commonly used markup languages for the rain are now SGML. Devices such as telephones are designed such as MIDP, WAP, XMI, etc., etc. =, how to display relevant instructions on the web page, or scrolling text or video slides. The advantage of the label language based on the text 94303 14 200850010 is that they are defined by what format should be instead of a specific file editing... how the browser implements the formatting effect (f〇rmatting effect), which makes use of these formats The documents prepared by the language have extensive editor compatibility and reconciliation consistency. However, the problem of all these markup languages is based on the text of the standard picture, Baishui, shop 丄 04 f L· A/r wok —^ , ·.. ▼ μ ~ ~ must be; and in the 栎 膂ϋ 膂ϋ page source file of the overall capital ride size report. For example, each standard contains many text letters. The text is usually in Ascn letters. Therefore, each formatted instruction tag will have a number of bytes long.解令吏 2 ^ Exclusive formatting instructions (available for exclusive editing 11 or boring browser M^rosoft w〇rdTM^ M.cr〇s〇ft p〇werp〇.ntTM) . The proprietary format uses a general $ file, flat |^ expanded and defined instruction set, and different editors, ::: has:: instruction set. Files that can be expanded with the 'Editor' usually use the proprietary method to read tl b. The target device may need to be installed as a file editor or server for the user to trace to the user. It must be maintained that the file converter and the viewer are cumbersome, and the H editor, the viewer and the converter are used to delay or increase the power consumption. Batteries are limited in electrical memory and have limited processing power to be particularly undesirable for clothing (eg, mobile devices). , the case is converted into another grid, the problem 'exclusive file editor often contains the file format conversion function that can be posted to the website, 2 . For example, if the file directive is converted to a generic, text-based format, 'HTML'. However, people often use other formats 94303 15 200850010, such as Portable Document Format (PDF), or common file formats such as Mi(10). Ft WordTM format. In the file has been used; ZT7ft wordTMs " p〇w -, ^ ^ Example - step configuration to convert the file format to text-based; ^ = instruction format (for example, HTML) as described in this article The optimization method. The tool commonly used by programmers is to define a network with an overall format that defines a number of displayable materials, and then link the data files in each frame to be displayed. This will result in a different display when displaying a web page. Shell material file. An advantageous benefit is that the internal data of the linked data file can be modified or changed to be linked to another data file without having to update the entire web page. Data files t f of different source servers can be stored in the web page server. Therefore, when the source device and the data from the link (4) are accessed by the target device (for example, the user's personal computer (PC)), a large amount of data can be transferred to reproduce the web page on the target device. The method of establishing a web page for recreating a web page may require the target device to be linked to a number of different source files or health devices to extract all of the content material. The target device is a mobile device and the length of time during which the device is connected to the wireless network to download the data is paid by the user. This extra processing is not desirable from the rights and the ship. A specific embodiment of the use of a tag language is described in more detail below, wherein each formatted instruction tag can be translated to have a compact type that uses only a few bytes or bits to represent the instruction tag and associated tag attributes. Equivalent instruction label. This minimizes the number of bits used to format 94303 16 200850010 and control instructions for rich content. The specific tag and attribute set may be a compact equivalent instruction tag as shown in the example ι, as a format for describing the green content =°, and a state of the readable value in the device processor. This is a compact equivalent; I: the application can be used in a target data efficient way with fewer bits. The advantage of the 7 set is that the equivalent instruction is more refined than the more standard standard. The formatting and control instructions based on the translation are ingenious, etc.; the first step of a specific embodiment based on the text optimization method. 4 々 々 々 发明 发明 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下 以下Any bunk material that contains a visual image (for example, the element of Subsidiary 2 has an unsuitable display on the target device) is designed to be the size of the mesh F to be displayed on the PC. For example, the screen of the mobile phone may be too embarrassing::::page: If the photo is to be displayed, the short video captured by the mobile phone camera should be displayed on the entire screen of the TV. The image may be too large and the image processing is enlarged. And sharpen the image. Before the delivery of the rich content _ target device, there is included the display capability of the target device and the appropriate scaling of any visual content material for the target device. In a particular embodiment, any visual content material is scaled to optimize visual content material for rendering on the target device based on the target device performance description 160. The target device performance description 160 may include information on the display size of the target device, which may be provided as actual measured values or number of pixels. The target device performance description 160 may also include display resolution information, which may include pixel size, number of colors that can be reproduced, and luminosity ranges for each of the 94303 17 200850010 elements. Additional information that may be included in target device performance description 160 may include maximum cache size and processor performance, which may affect the size or dynamic image visual content stream containing the output file that can be processed to fit the visual content of the target device to the target device. Data rate. In one embodiment, each of the translated, scaled, and/or compressed rich content elements in the content material is incorporated into a single data file for transmission and display on the target device. The data file is prepared such that the processor of the target f device can process each instruction continuously, preferably, for example, reading the data file from beginning to end and acting according to each encountered command thereby taking a single processing round. Describe the rich content that is being reworked on the target device. Therefore, the content can be efficiently rendered on the target device without jumping to a different address in the data file or opening other content data files. An advantage of this particular embodiment is to minimize the processing time and power consumed by the target device by providing a content profile to reproduce the target device in an optimized form. In addition, the optimized data file minimizes the amount of data that is discarded during the rendering process of the target device. In one embodiment, the first file may contain web pages or mail content and advertisements attached to the web page or mail content may also be included in the same file. In one embodiment, the archive-derived advertising content can be depicted along with the web page or mail content. In another embodiment, the web page or mail content includes a first file, and the advertisement associated with the web page or mail content includes a second file that is also loaded and displayed as part of the same function to display the content. Thereby, the contents of the first and second files are depicted for simultaneous display on the display screen of the device. 18 94303 200850010 When a web page is to be compiled into, for example, an HTML source code (s〇urce c〇de), the overall formatting style and layout instructions to be used for various content elements can be defined in the initialization or header portion of the source data tag. Obtaining a rich content source code 140 with respect to the target device and a description of the target device performance, such as the target device screen size (eg, expressed in pixels) and resolution (eg, pixels/inch) and input to the interpreter 11〇. The target device performance description can be directly transmitted by the target device to the interpreter to make it available to the interpreter in some manner (e.g., a library containing the user profile 'information provided by the package f at the time of registration). As shown in block 210 of FIG. 2, the interpreter 11 reads the rich content source code and determines the content element context 215 for each rich content element, the content element context 215 containing what the content element is and any derogatory The relationship between the content element and other content elements, such as whether the two search bars are to be displayed. The interpreter .n〇 also determines the location 220 of the content element within the web page layout, such as whether the content element is to appear at the top and bottom of the web page and whether it must be displayed relative to the location of another element, such as two top and bottom displays. Relevant search results. Using this - information solution ★ crying 110 can determine the appropriate location 225 of the content on the target screen based on the location within the web page layout. The interpreter 110 transmits the location information and the formatting instructions of the content elements to the tag translator 120. The translation n translates any formatting or referring to the tag and the location information into an equivalent: I曰"7 In some embodiments of the system, the translator will format and Instruction tags are converted directly to numeric format. 94303 19 200850010 In the content of the data element or data beer called the data format formatter 240 to properly weight == the solution to convert the building (c〇nverted fi) e) to add 25 material 4. After the content element of the following (4), the interpreter continues to convert the method to a rich content element 215, repeating the execution until the end of the 265 source file. At this time, the secluded form is a numerical data file of 15 〇. After the five-day valley nuclear shape device or health 270 下载 下载 下载 下载 数值 数值 数值 ( ( ( 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 The size of the mouth screen is used to scale the image content, and the information is provided by the ^^10 pairs of target farms, and the two are not thick. #从』,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, This dip depends on the data type of the rich content element. The actions taken by the jins are all described below in a more detailed way to describe the formatter as an example. The weather update can be accessed via the Internet webpage; the selected user is subscribed to the weather update. The service will make the new fox. The user also provides the weather update service with the mobile phone = oxygen image (4) _ mountain (for example, model type, screen snippet fineness) for the weather update service. The size of the screen, as well as the specific embodiment of the following items: the application system of the user=run includes the benefits. The image update is based on the H-times and the time-of-parts. In this embodiment, like the content of the website. - The preparation system of the feeding device will trigger the website π谷~This is for the weather update service subscriber 94303 20 200850010 download. The interpreter reads the HTML source code of the website and identifies the content elements from the source code, such as " The status quo, and "predict," the interpreter believes that the two rich content elements contain formatted text data, and also determine their location (for example, at the top of the right side of the page) as the site does not have to be in h The clothing is re-made. No such location restriction is based on the user's subscription, and it can simply display the content items of the two subscriptions as the flag, and the reproduction on the target device is independent of the screen position. The deciphering state takes the source code of the 210 website and the first element identifying the subscription content 215 (the content in the weather update box of the website). In this case, the interpreter recognizes the location on the webpage. The layout is irrelevant, so as shown in block 31 of Figure 3, the first element is displayed at the top of the screen under the heading "The Present Situation of Sunnyvale." The interpreter also provides formatting with general web page styles. 315 related information (for example, the color of the logo translator; the necessary day to format the color). For example, the label translator uses this information to define the background color of the weather screen. In the example, the standard iron translator determines the equivalent fine-grained instruction standard iron and attribute for the 32-inch paper label, which is determined by using the look-up table 325 of the compact equivalent formatting instruction to determine the equivalent label. Table can Contains an interpretive function that recognizes abbreviations or rare HTML tags. After deciding on the equivalents and attributes, the translator decides to use the property value 330 to be applied by the society, such as text color = and The code of the large J. Then, the translated mark and attributes are stored in the second change of the material ^ 340, the number can be used to represent the fine formatted instruction label and attributes. This can be simply added to the translation of the 94303 21 200850010 two-turn::: file: However, in the data file or data file connection, ... can call the tribute file formatter to read whether it is necessary to further Formatting. 爿疋疋和爿疋疋或资: 二1 Γ 示, input element data 410 (for example, data file position == knot) will be input to the formatter. When the formatter object is stored in another source, the data slot of the 430 is connected, the -#'" is out of the poor file and the type of the data file is checked. If "for plain text data" is in block 44 (), If necessary, compress the text and insert it into the line with the formatting and command _ 470. ° When given, = = capacity data (for example, image or video file) ± ° ° ° ° The size of the image and The size of the target device screen is to be scaled for display == 22. The formatter can also be considered to take into account the aspect ratio of the image. In the specific embodiment of the size, the formatter only considers c, ', 卩 to determine whether the image is to be scaled for f on the target device, the ancient s The content of the target device. The formatter is equipped with the (4) money 415' in the screen. The number of pixels is the number of stupid = / pixels. The formatter is based on a given size. For example, it is correctly scaled for Displayed in the target device description - used to match the number of pixels in the in. Use Figure 8 to format the 425 425 θ method. If you want to scale, do you have to format or compress the image for the image file (example 94303 22 200850010 eg JPEG or MPG4). 455 is a pixel image. If the visual content file is in a compressed or decoded state, the visual content data is reconstructed 455 into a pixel image, and then zoomed for the target pixel number 450. The scaling 450 maintains the original image. Then, the original or another compressed or decoded format is used to compress or decode the 458 scaled image. The first process can be used to compress or decode 458 the image data and then use another process 46 to further compress f 460 and The output data file is inserted in line 47. As described in more detail below, the "zoom function can also re-format the image and make the image of the screen larger than the original target. For example, for designing to 8〇〇χ64 JPEG image of the screen (target device display is 2048 HDTV screen), the format of the image can be re-formatted so that additional data can be added Adjusting the aspect ratio and enhancing the image to fit this larger screen size. With a few embodiments, the rich content can be directly converted into a reformatted and compressed value standard for rendering on the target device. (Some, some embodiments may also provide a content editor such that the source file can be subjected to formatting instruction translation conversion to convert source file style formatting and instructions into a compact format and instruction tag in XML, such that the user can Editing a translated file. Alternatively, a compact instruction can be generated using an XML object to generate a file. In this embodiment, as shown in the example, a formatted instruction that is converted to an XML object is used. To generate a first conversion of the editable version of the source code, the interpreter call translator converts the format instruction only by reforming without formatting any content material for the target device. In fact, the target installation 94303 23 200850010 may not know that the editable file format is converted or generated by the numerical instruction label represented by XML. For example, in terms of a rich content (e.g., an advertisement) targeted to a mobile phone user, it is preferable to use a compact instruction of the XML object version to directly prepare rich content to minimize conversion time. For example, as shown in Figure 5a, at the first turn, the 500 source file is read, the context of each element of 5 10 is determined, and the relative position 515 of each element on the target device screen is determined. The format and instruction tags are then translated 520 into equivalent compact tags represented by XML objects. If desired, read 525 any material from an external source (e.g., a file server or other web server) and, if necessary, compress or decode the visual content file into a pixel image format that is scalable when necessary. Any read data file or image can be attached to become a data file 530 that is linked in the XML object of the element. The next element 535 is then read and the method continues until the input source is all converted. The following example is a source of translated content in XML: / Weather Alert <gui color=“255 255 255 ”><txt face=“2” style=“ 1 ” colors ((10 10 1209,> Conditions for Sunnyvale, CA at 8 ·· 56 am PST</txt><n/><img pos= ((left9) srdttp ·· "usM.yimg. com/us.yimg.com/i/ Us/we/52/34.gif"/><txtface two "2,, style=uln color=<(10 10 120,y> Current

Conditions · </txt> 24 94303 200850010 <txtface two "1" style= ί( 1 ” colors ((10 10 120,'>Fair, 1 7 C</txt><txt face=” 2, ' style=“ 1 ” colors “ 10 10 120”>Forecast : </txt><txtface=z (i 1 styles ίζ 1color= (i 10 10 120 ”>Mon -Partly Cloudy· High ·· 21 Low ·· 12</txt><txtface:" 1 ” style=“ 1 ” color=“ 10 10 120”>Tue -Partly Cloudy· High ·· 20 Low ··12</txt></gui> After specifying the target device display size, a second conversion round can be performed to convert the XML object into a numeric instruction format, and also scale, convert, and compress any data file. Figure 5b illustrates the second round embodiment Reading each XML object 540 of each element and converting the label to a numeric format 545 and correlating the material with elements of a suitable format for the target device 550, which can include scaling the image content and compressing the data, and The numeric element data label 555 is the element data of the line. Then, similarly, read The next element 560 is taken up until the file is fully converted. Then, the conversion file is stored or output to the target device 570. As shown in Figure 6, when the rich content source is compiled into a numeric format, an option can be provided to make it appropriate Adjusting the location of the content element for the target device. For example, the menu 620 displayed as the bottom banner of the web page 610 can serve as the bottom banner 25 94303 200850010 622' when the target device is the mobile phone 630 but is a widescreen digital display on the target device. When the television is 65 inches, the position can be changed to become a side banner 625, because the display 64 of the mobile phone 63 has a different aspect ratio than the display screen 660 of the television 650, and both The display of the target device also has different scrolling properties. The option enables the interpreter to automatically recognize that one or more content elements can be adjusted to that relative position to suit the aspect ratio of the target device display. For example, position adjustment can be Based on the type of element (for example, an ad or menu), the factory or based on the relationship between the size of the element and the content element. Alternatively, any of the content elements and their location options can be specified by the content designer. Neigu Editor can be equipped with a compiler and previewer that allows the designer to enter information about the target device (eg, device description (deViceprofile) or screen size) for the rich content to be reformatted, and then draw it in preview mode. How the target device will depict the content. This preview state can be provided as a format application (f〇rmatter appHCati〇n), which allows the website designer to preview how the target device will depict the website hTML source file, i. However, all edits are done in the original HTML source code. . Alternatively, the previewer can include an editing or development tool for the designer to edit the content. When the visual content material is to be scaled, the target rendering size of the visual intra-valley data is determined by reading the target device performance description 160 (as shown in FIG. 1) and based on the target device performance description 16〇. Zoomable. Then, it is determined whether the original drawing size of the visual content material is equal to the target drawing size. The size of the target drawing is smaller than the original drawing size. The size of the valley data in the visual image is reduced to the size of the target image size by narrowing the margin of the visual content data 94303 26 200850010. Therefore, it can be configured for display on the target content data. It can minimize the processing time and power used to trace the visual content: because it does not need to be in the target device: the size of the image. In addition, the vision for the target device can be optimized to provide visual shadowing within the limits of the target device display as much as possible. Such restrictions can include - the number of shades, and the brightness. : The zoom of the visual content can be designed to fit the scalable size c::b:, rze) and can be easily scaled and used as the second step of the target device. One embodiment of the method is to be a forest妓 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示 显示With or half of the screen, the size of the same image is adjusted to (10) pixels by smashing the different targets into several groups of shadows // 2 small (with super (four) different kinds of The visual data is re-formed: the common scaling format can be displayed on the target device. It becomes a scalable format for simple examples: rod; = the size of the data is based on the following ratio (in pixels) The rain, width, or height and width of the screen is also the resolution of the screen; the size of the fixed screen can also be defined by the pixel scale of the number of sounds. Therefore, "X. In this particular embodiment, it is root 27 94303 200850010 - The size of a given number of pixels to scale the image or video file in pixel format while maintaining the aspect ratio (height to width ratio) of the image. Depending on the target device, the zoom of the image can be reduced or increased, and the image is The number of pixels; the scaled pixel image can be compressed by the compression method suitable for the target device to reduce the data of the taxi.], especially the size of the beta leaf is compressed, the advantage of scaling the image is after decompression The image will be appropriately sized for the target device, thereby reducing the amount of processing of the target device to properly display the image. r Image or video compression can also be based on the target device performance description (10), = contains several vehicular devices (eg, Designed and installed as a device - MPEG or JPG stone of the mouth P # μ π 抑 抑, · η $ G hard 脰 盗 或 or RealPlayer application system device-specific decoder. 视觉 soap the visual content data can be encoded or Compressed grid =, into a pixel format. For example, for video YANG stored in mpG4 format, the VIPG4 format file will be re-constructed from the new product/field. Prime number (usually] VTPG4 is willing to pay homage + shop 1 ~ μ, ( 钿刖 原始 original shirt image). Therefore, for the device screen, the MPG4 slot directly tongue like the second sister is placed on the second. The step shown in the target is set to be in w(4) 1 and this is to be processed in the target device to display the image. Further = 1 to increase the power consumption. For example, it is usually encoded as: 1920 1920 pixels are displayed, and the largest cellular phone has 640 pixels per line. Ligu|West 4, 仃', _ requires the mobile phone to download the video, but it is more than what is needed to display the video image. , , 5 I 3 :: In his specific embodiment, the number of bits of one pixel in this method may not have the image processing of the advanced 94303 28 200850010 and the device may be replaced by a mobile device with a large flaw. Battery-powered image or view, high resolution or rich color display. - "...In the beginning of the combination of elements 匕 编 编 或 或 I 或 或 或 或 或 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ Or the encoding format is reconstructed into a pixel shirt image format. Then, for at least one pixel number or bit encoding, the image size of the given image is the same or the other stone or the horse is used. Wanmumu re-encodes or recompresses the scaling f, which can be directly converted from the existing 袼 to the same or not, and k includes the reduction of pixels and bit count or image display size. This processing is commonly used, - TF ^ ^ ^ η r- is used for the 軏 处理 而且 而且 而且 而且 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = Knowing the format, but the proprietary format is converted from the conventional format to the copying device (4) me d(10)e), so there is no need to reformat the image like Xin. In the silk-silver & moxibustion target money and bit reading In the case of the replacement, the standard compression known by the L-eye device can be used. The zooming and compression map of the content-data is not completed by the data formatter 130 of the Figure 1. Figure 7 illustrates a specific format of the breeding file formatter 130, wherein the visual content data and the target device performance description 160 Both are provided to the data file formatter 130 by the interpretation crying 110 shown in Fig. 1. The data file formatter 130 includes a controller 71: a resizer 720. If the visual content data 78 is visually _ valley data The controller 710 is configured to determine the size of the image to be reproduced by the visual content material. This is called visual content data when the zoom or any processing function is directly applied. The original size of 78. The controller 710 can also be configured to determine the target edge map size of the image to be displayed on the target device display by the target device performance description 16. An embodiment of the target device performance description i60 can include a display. Height and width, and the target drawing size can be based on two sizes or one of the visual content and/or the aspect ratio of the two. When the target drawing size is based on one size, it can be the target The display width of the device (eg, mobile phone) f, whereby if the resulting image height is greater than the height of the display, the user can use the display control to scroll vertically to view the entire image. When the height and width dimensions are taken into consideration, the controller determines the maximum size so that the visual content data can be rendered on the display while maintaining the aspect ratio of the original drawing size. For example, for video content segments or motion pictures, scroll to view the entire The visual content to be depicted is undesirable. The controller can be configured to determine the target drawing size based on different criteria based on whether the visual content is active or still image data. (; In another embodiment, the data Formatting zooming uses the size of the profile screen to change the size of the image or video on the screen without scrolling the screen to view the entire image or video. The Zoom 720 is configured to adjust the size of the visual content material from the initial size to the target edge map size determined by the controller 71. The control state 710 can provide the original and target drawing size for the scaler to use to complete the zoom, 1, or the controller, 710 can determine the original size to reduce the target green image size, and provide this reduction ratio to the scaler for zooming the image. To maintain the aspect ratio of the original image. In some embodiments, it is permissible to change the aspect ratio of the image by cropping or stretching of the visual image by 94303 30 200850010. In this embodiment, the controller 71 〇 = stretched parameter value can also be used for scaling. 72G. In a particular embodiment, the scaler 72A includes a medium-sized scaler 722 and a 描-start from the image size = plot size from 9 Χ θ ^ , , state 725 . The two-stage size reduction will be more important than the one that scales the large image. For example, 'the height of the image is higher than the size of the image.' Thousands of pixels, the first zoom to reduce the image, ::: and the zoom from the original to the target size, = second zoom to the target size It may require less processing to be performed, so the required time and processing resources are less than direct scaling. In addition, f needs to compensate or correct the error of the image data when it is (4), so the number and size of the difference usually As the difference between the original and target image sizes increases, the degree of increase depends on the scaling process used. The scaling of the second-to-medium size and the second to the target size: the total number of errors in the image data and The size, and thus the image quality can be improved compared to the image directly from the original size. ... the first scaler 722 and the second scaler 725 can use the same or different 'wide' processing. The medium size can be the specified size or the size determined by the original and target 7 times 1^1, ^. Medium size can be by the scaler' or controller ^ 疋. In an exemplary embodiment, the scaler 720 estimates whether to use two-stage scaling or -stage scaling based on the original map size and a specified critical dimension value (e.g., - thousands of pixels). The medium size used for the first-zoomer 722 94303 31 200850010 can be a specified size or a size determined by the original image size and the target drawing size. For example, the following process A can be used to determine the medium size:

Process A

If(OW>TW or OH>TH)

If(TW/OW <= TH/OH)

Then CR = TW/OW Else

CR = TH/OH IW = CR*OW IH = CR*OH where OW is the original image width, OH is the original image height, TW is the target width, ΤΗ is the target height, IW is medium width, IH is medium height, and CR To convert the ratio. As seen by Flow A, in this particular embodiment, the first zoom occurs only if one of the width or height of the original image is greater than the target image size. The conversion ratio used to reduce the size of the image is based on the relative width or height of the original and target image sizes. The method embodiment used by the second scaler is given below in flow B. For example, the following procedure B can be used to obtain a conversion ratio for scaling the original size or the original size without the first scaling:

Process B

If(OW>TW)

If(OW-TW > OH-TH) 32 94303 200850010 CR = TW/OW Else

CR = TH/OW

Where OW is the original image width, 0H is the original image height, TW is the target width, ΤΗ is the target height, and CR is the conversion ratio. It should be understood that when the first scaling is completed, the OH in the process B should be replaced by IW (medium width) and IH (medium height). The effect of scaling a large image using Flow A is to substantially reduce the processing required by the second scaler 725, as compared to the practice of using Process B to directly reduce the original size to the target size. The data file formatter 130 also includes ^ w ° ^ ^quantizer) 730 as needed. The output of the scaler 720 is the reduced size of the original image or the "reduced image_mbnail" version. Depending on the display capabilities of the target device, the pixels of the thumbnail version of the image can be quantized to optimize image loss on the target display. For example, the performance description contained in the target device (10) may not include the data related to the display limit, for example, the display resolution, and the number of codes used can be displayed. The bit count, the range of brightness, the increment of the clothing of the color of the cedar 1 note that the description of the 160 data, can w ~, the shadow image of the target device's imagery imageability and the selected pixel properties The criteria are compared to: =: The pixel is not available for the device display. If necessary, the image is used to quantize the scaled image to follow the selected target device image: 94303 33 200850010 =. For example, when the image pixel scaled color attribute has a color range of 256 colors to be based on the target device performance description 16 0 selected pixel color attribute criterion 疋 64 color range, the quantizer 73 can quantize the image data to reduce the eve The number of shades. The quantization parameter can be calculated based on the difference between the selected pixel attribute criterion and the scaled image pixel genre; depending on the implementation of the particular embodiment, the controller 710 can be used to perform this calculation and the input to the quantizer is quantized. The calculator 730 is used to complete the calculation. In a specific embodiment, when the image scaling is based on the 1 size or size reduction of the 1 dry position rather than the target number of pixels of the scaled image, it may be necessary to reduce the number of pixels of the scaled image to optimize Display: The image that is shocked at the target. For example, the scaled image can be quantized based on the target display size and pixel size (also referred to as display resolution) to reduce the number of pixels. Those skilled in the art should understand that for displaying the 'V image data' on the target, the number of pixels defining the image can be defined to match the number of pixels of at least the size (eg, width or height) of the device display. Z / can define the pixels to match the pixel size of the device display to minimize the amount of processing required by the target device to trace the visual content. The performance description 160 may also include data that may limit the ability of the target device to insert the grain into the grain, such as data file size limits or slowness: small and processing speed. Based on the manufacturer's performance description (10) from the target device, it can be determined whether quantization is needed to reduce the size of the image groove or the amount of image data to be reduced, and then to reduce the visual content to the target device to capture the visual image with the target device. The required bandwidth, cache size, or processing speed required for the content. The parameter value can be quantized based on the target broadcast size or data rate. 94303 34 200850010 Quantize the parameter value to reduce the expansion by, for example, reducing the number of colors or image parsing: will: like the amount of data required. Depending on the needs, it is also possible to cater for the size of the target file or the data rate by means of a grid and a poor material. The first quantization may cause the image data to be scaled, for example by color reduction (this will result in a reduction in resolution, followed by pixels). The number is reduced. This means that you need to further reduce the image size to the target image size. In this case, use the process B as described above to complete further based on the size of the thumbnail and the size of the image. The zoom. The specific embodiment of the I file formatter may also include a format crying, basin = image encoding and/or formatting into a moving image data with a 9-label such as a target that may only be able to be labeled with an EG-frame. Or the JPEG format of the static energy, the two: the description 160 can contain the file frame of such a target device: "22 2 =: Equation 7 4". It is configured to be based on the i image data selected based on the 1 f. Target device performance description 1605 formats the thumbnail group's preference data to select the target building format = one: plant: class phase valley file format may have a preference order, or a single target by the target user or manufacturer ^ or preset styles, such as active or still images. Two: = can also be done based on the data = device, depending on:: actual selection: can = standard format can be specified by the content provider. In the internal, ^^'s device performance description 160 does not specify the secondary ', 曰' in the target data format, or specify the possible format options for the target device to be used when the target: 35 200850010 The preferred format selected, for example, when the target device can depict Tiff, JPEG, bitmap or PDF format, the priority format of the image is JP]E(}. The data formatter 130 can further include compression for on-demand compression. The image data compressor (c〇mpressor) 75 〇. Whether the data should be compressed or not depends on the target data file format. Further compression of the visual content data can be used to reduce the output data file size, which can reduce the time required to download the content data. The formatter 740 can also be configured to segment the image data into a plurality of linked files based on the target device performance description 160 or the content provider's preferences. For example, in the case of dynamic image data, the content provider can Whether the specified data is to be flown to the target device or delivered in a sequence of individually downloadable standards (also referred to as "chunks"). Whether to format the data into a sequence of data blocks or a single data file for streaming to the target device: subject to each file. For example, 'whether the block data file can be based on:, 'device performance description 160 and target device limit ( For example, memory and/or storage size or processor capability), data transfer rate of the communication interface, or web interface load based on Q〇s (service f) performance or user included in the target Preference (for example, block or stream bias:,). or: 疋 no block or stream data file can be based on environmental factors, such as delay (netw〇rk latency) or available bandwidth. ® Shibei T+ requires a knife to be sent to the 仏: set % 'divide the scaled visual image data into multiple data segments and the data of the next data slot in the identifiable sequence) (for example, the data file in the content data) On the server: m - from the packet to an individual data slot. The link data enables the second standard) 94303 36 200850010 to download multiple data files. Download the data in a serial format to broadcast on the network security or network one. The data string is desirable. For example, in use When the communication network is concerned, it is also calculated by the connection time instead of the transmission data. The user target device may be the leader of the video. In this case, the content is downloaded to the mobile phone and the content is viewed. Music requirements continue to open the network, South: i solid period, data streaming, 5 hole session (network m .. , depending on the download speed of the data and the purpose of "set: _ force" the entire video may last for a few seconds A few minutes, such as:: processing can speak, this is the phase for the user, if you charge in seconds, you can wear the eye rod f έ At ^, in the case of data partitioning, sub-shirts Set the sorrow to deal with and trace the line 'and then reconnect when necessary: = Section: can be viewed from the network's point of view, broken, carrying a slave. In order to use the download and play it seems that the / line is transparent so that the music video is made so that the content (9), for example, the block of ==_ is also advantageously streamed via the Internet:::: to = configured to be The following (four)^ blocks can be downloaded to the user device and can also be independent. Line: The visual image data is preferred or the network load is based on the device description, the content provider to the user device can be downloaded into several blocks in May to download H Jso , ^ 1 13 0 ^ ^ 11' 710 ^ ^ liV 72 0 . t The processor hardware VI740, and the retractor 750 are implemented as a software application system that can be driven by electric drive. Alternatively, any of the specific embodiments of the data slot formatter can be implemented using any of the 94303 37 200850010 D, (4), $blade', or a combination thereof. ▲ Figure 8 illustrates one embodiment of the zooming side. The scaling method can be used alone or in combination with the method illustrated in Figure 4, for example, using the method of Figure 8 to implement scaling 450. When the visual content material 78 is input to the data slot formatter 130, the 805 target performance description 16 读取 is read. Determine 81 原始 the original edge map size of the visual content material. Before or as part of the step of determining the original drawing size of the visual content, the video material broadcast can be decompressed and decoded from the compressed and encoded format into a pixel format. The 815 target plot size is also determined based on the display data provided by the target device performance description 160. In this particular embodiment, whether or not to make a two-stage or one-stage zoom depends on whether the image is determined to be a large image 82 (this is based on a predetermined threshold value of ^1). Whether to scale the first to medium image size depends on whether the width and height dimensions - or both are above a critical value. The threshold can be a given length, such as millimeters or inches, or a south or width in pixels. Alternatively, the threshold may be the total number of pixels of the image or the size of the pot that is suitable for identifying large images. The criteria for identifying large images can be based on the image pixel density or resolution of a large image file size rather than simply the size of the image based ride. If the original edge image size of the image is greater than the threshold 820', the first to medium size scaling can be performed. If the original image size is below the threshold, the first zoom is skipped, and the method directly scales the image to the second zoom of the target size (2). In some specific embodiments, it may not be necessary to scale the image data, for example if the original and target image sizes match. In this case, still 94303 38 200850010 can be used to optimize image data by optimizing, encoding/formatting and compressing. The decision whether or not to quantify image data is based on the pixel attributes of the image data and the pixel attribute criteria selected based on the data of the target device performance description 160. The decision to quantify the parameter values is based on the pixel attribute criteria used to quantify the milk image data. The quantization step can be skipped if the image data meets the selected pixel attribute criteria. The image data is formatted 840 to become the target file format. The data provided by the (10) can be selected or based on the preference of the operator or the internal file formatter to select the target file data slot; the data is segmented into a sequence of compressed images. It is necessary to 'before the output (10)', although the above-mentioned specific embodiments of the present embodiment (4) _=== indicate I system, and (4) can still make a variety of provinces covering all falling == from the invention spirit. The scope of the invention is changed. In the meaning and scope of the patent application scope, the scope of the following patent application and the use of "including" in the meaning of the language or the meaning of the language are included in the meaning of the language. In the examples, it is used to describe in detail; == and also: in the specific, sub-existence and exclusion of the existence or addition of other features 94303 39 200850010. Example 1 Label: Label Name Value Label Name Description XML Representation Method Ads 0x00 ad, which specifies the content of the ad and contains its address metrics &lt;ads pos=,M, delay=MM&gt;&lt;frame src =MM link=,,,7&gt;&lt;/ads&gt; Anm 0x10昼, it specifies and points to the address of the motion picture &lt;anm pos=f,M delay=M,,&gt; <frame src=&quot;&quot;/&gt;&lt;/anm&gt; Btn 0x20 button 'the system Specify a "button", &lt;btn type='&quot;' img='&quot;' label='&quot;' link=,&quot;,&gt;&lt;refid=M7&gt;&lt;/btn&gt; Frame 0x30 The framework 'designates an element's frame&lt;frame scr=,,f, link=M,,/&gt; Grp 0x40 group, which means A space between the elements of the drawing. There are 4 possible elements, but each specified group can only have two elements &lt;grp color=''''&gt;&lt;txt color=MM face=,M, link=,M, style=,fM value =f,7&gt;&lt;imgsrc=&quot;'' pos=n" link='&quot;'/&gt;&lt;ads pos='&quot;' delay:'&quot;'〉 〈frame src=·&quot;'link=f'7&gt;&lt;/ads&gt;&lt;anmpos=&quot;ndelay='&quot;'&gt; 〈frame src=n''/&gt;&lt;/anm&gt;&lt;/grp&gt; Gui 0x50 Graphical user interface, which defines a container or a block, where the container is joined to a different component &lt;gui icon=,,M color=fM, label='&quot;' type=l丨丨' to=丨from=丨&quot;'/&gt; Img 0x60 image, which specifies and points to the address of an image file&lt;img src=丨,'丨pos=,&quot;' link=&quot;&quot;/&gt; N 0x70 line' It is a new line &lt;n/&gt; S 0x80 separator, which defines a horizontal border &lt;s width=,n, color: Ref 0x90 reference, which specifies the id value &lt;ref id=丨&quot;'/&gt; Snd OxAO audio, which specifies and points to the address of a sound slot &lt;snd format= f, M loop=MM src=Mf,/&gt; Txt OxBO text, which specifies the text attribute &lt;txt color:'&quot;' face='&quot;' link=&quot;', style=fM, value=MM /&gt; Txtbox OxCO text box 'is defined as an input shed for inputting data&lt;txtbox label=MM id=,,f, constraint=fMf value=,n, maxsize=f,f7&gt; Vid OxDO video, its system Specify and point to the address of a video file&lt;vid src='&quot;' loop='&quot;' url='&quot;7&gt; 40 94303 200850010 Attribute: Tag=ads Attribute Name Value Attribute Name Possible Value Equivalent Value Delay 0x00 0-65535 (2 bytes) Unit: millisecond pos 0x01 left (default) 0x00 medium 0x01 right 0x02 sub-label equivalent value Frame 0x30 sub-label attribute equivalent value possible value equivalent value Link 0x00 url Src NA url Tag=anm Attribute Name Value Attribute Name Possible Value Equivalent Value Delay 0x00 0-65535 (2 bytes) Unit: millisecond pos 0x10 Left (default) 0x00 Medium 0x01 Right 0x02 Sublabel Equivalent Value Frame 0x30 Subtag Attribute Equivalent value may be equivalent Value Src NA url 41 94303 200850010 TAG = btn Attribute Name Value Attribute Name Possible Value Equivalent Value Img 0x00 url Label 0x10 String Link 0x20 url type 0x30 get 0x00 post 0x01 Sub-Label Equivalent Value Ref 0x90 Sub-Label Attribute Equivalent Value Possible Numerical equivalent value Id 0x00 TAG = grp

Property Name Value Property Name Possible Values Equivalent Value Color 0x00 3 Bytes + Extra 5 Bytes RGB

Subtag Equivalent Values Ads 0x00 Anm 0x10 Img 0x60 Txt OxBO 42 94303 200850010 TAG = gui Attribute Name Value Attribute Name Possible Value Equivalent Value Color 0x00 3 Bytes + Extra 5 Bytes RGB Icon 0x10 url From 0x20 Text Label 0x30 Text To 0x40 Text Type 0x50 url Tag=img Attribute Name Value Attribute Name Possible Value Equivalent Value Link 0x00 url pos 0x10 Left (default) 0x00 Medium 0x01 Right 0x02 Src ΝΑ url TAG = s Attribute Name Value Attribute Name Possible Value Equivalent value Color 0x00 3 bytes + extra 5 bytes RGB width 0x10 percentage of screen width 43 94303 200850010 TAG = snd attribute name value attribute name possible value equivalent value format 0x00 amr 0x00 midi 0x01 mmf 0x02 mp3 0x03 Ot 0x04 wav 0x05 Loop 0x10 byte (0-255) Src ΝΑ url txt = txt attribute name value attribute name possible value equivalent value Color 0x00 3 bytes + extra 5 bytes RGB face 0x10 is proportional, Small size 0x00 proportional, medium 0x01 equal ratio, large 0x 02 system, small 0x03 system, medium 0x04 system, large 0x05 equal width, small 0x06 equal width, medium 0x07 width, large 0x08 link 0x20 url style 0x30 plain text 0x00 bold 0x01 plain text italic 0x02 plain text I plus bottom line 0x03 Plain text | Italic | Bottom line 0x04 Bold | Italic 0x05 Bold I plus Bottom line 0x06 Bold | Italic | Bottom line 0x07 value 0x40 44 94303 200850010 TAG = txtbox Attribute name Value Attribute name Possible value Equivalent value constraint 0x00 Decimal 0x00 Email Address 0x01 Value 0x02 Password 0x03 Phone Number 0x04 id 0x10 label 0x20 Text maxsize 0x30 Value value 0x40 TAG = vid Property Name Value Attribute Name Possible Value Equivalent Value src ΝΑ url loop 0x00 Bytes (0-255) Url 0x10 url [Simplified description of the drawings] Fig. 1 is a block diagram showing a system according to a specific embodiment. The flowchart of Figure 2 illustrates a method for formatting and compressing rich content in accordance with a particular embodiment. The flowchart of Figure 3 illustrates a method for formatting an instruction translation in accordance with a particular embodiment. The flowchart of Figure 4 illustrates a method for formatting data in accordance with a particular embodiment. The flowchart of Figure 5a illustrates the first round of the compilation method to provide an editable version of the translated source 45 94303 200850010 source file, in accordance with a particular embodiment. The flowchart of Figure 5b illustrates the second round of the compilation method in accordance with a particular embodiment to produce a numeric data file optimized for the target device from an editable version of the converted source file. The example of Figure 6 is a schematic diagram showing the adjustment of the position of the rich content elements to accommodate different target device display aspect ratios. The functional block diagram of Figure 7 illustrates a specific embodiment of a data file formatter as shown in the figure. The flowchart of Fig. 8 is a diagram for enlarging visual content data. [Main component symbol description] 100 120 140 150 210 220 225 230 250 265 310 315

System 110 Interpreter Instruction Translator 130 Data File Formatter Original Content Source File (HTML) Numerical Data 胄 16G Target Device Performance Description Selection Source File 215 The relative position of the element context in the web page layout on the target device screen Translation 24 〇 data formatting added to the binary data file 260 next element ',, ° bundle? 270 stores or rotates the relative position of the data file on the target screen (input by the interpreter) Element formatting and instruction label determination equivalent instruction label 94303 46 320 200850010 325 Review HTML to GML table 330 Determine equivalent format labels and attributes Value 340 Outputs Rich Content Element Labels and Attributes Translated 410 Input Element Data 415 Input Element Display Size 420 Type? 422 Is the size correct? 425 Compressed or encoded? 430 Read data file 440 Formatted? 445 Convert File Format 450 Zoom 455 Convert to Pixel Format 458 Compress or Encode 460 Compress 470 Output Material 500 Input Source 510 Element Context 515 (relative) position among targets 520 Label translated into XML format 525 Read out by link to be displayed Any information 530 attached to data file 535 Next element 540 XML file 545 Label converted to value 550 Data file format for target 555 Add to numeric data file 560 Next element 570 Save or output standard file 610 Page 620 Menu 622 Bottom Banner 625 Side Banner 630 Mobile Phone 640 Display 650 Wide Screen Digital TV 660 Display Screen 710 Controller 720 Scaler 47 94303 200850010 722 First Scaler 725 Second Scaler 730 Quantizer 740 Formatter 750 Compressor 760 Zoomed Visual Image Data 780 Visual Content Data 805 Read Target Device Performance Description 810 Determine the original drawing size of the visual content material 815 Determine the target edge image size 820 Large image? 822 First zoom to medium size 825 Second zoom to target plot size 830 To quantify? 835 Quantity 4匕 840 Formatting visual image data for output 850 Want to compress? 855 Compressed data 860 Output data 48 94303

Claims (1)

200850010 X. Patent application scope: The method 1. A method for optimizing the supply of the six-dimensional U valley in the target device comprises: obtaining at least one voxel from the content source, each content element includes a plurality of Formatting instructions and visual content data for text." Translating the text-based formatted instructions of each content element into a numerically formatted instruction that can be interpreted by the target device. r based on the performance description of the target device ( Capability 2: to fine-tune at least a portion of the visual content data; and transmitting the value-based formatted instructions and visual content data to the target device such that the target device can ride the content source. The method of item [0], further comprising: determining a relative position of the at least one content element on the display of the target device. 3. The method of claim 2, wherein the translation system comprises: The value-based formatting instructions define the location of each content element on the display. The method of item 3, wherein the defined position of each content element is defined by a relative position. The method of claiming the patent circumstance, including: Before the scaling, the member takes the target device At least one of the horizontal or vertical dimensions of the screen is determined by the method of claim 5, wherein the pixel is measured in units. 94303 49 200850010 7. The method of claim 6, wherein The scaling includes: converting the partial visual content material from a compressed format to an uncompressed or non-encoded format, and reducing the number of pixels of the uncompressed or non-encoded format according to at least one of the horizontal or vertical pixel screen size Maintaining the original aspect ratio of the visual content material. 8. The method of claim 1, wherein the method comprises at least = rounds, wherein the first round includes the text-based formatting r Become a compact (_11 footprint) formatted command to provide content in an editable format (4), and the second round includes the needle The purpose of the device is to scale and compress the editable format. 9. The method according to the scope of the patent application, wherein the numerical value/work button is a binary format instruction (binary f0rmat instruction) 〇1〇· For example, in the method of applying for a patent, the performance description includes the display device: the crying, the sorcerer ^ # , , the pixel number, the height, the width, or the aspect ratio of the target device, u. The scaling is prior to the transmission. • The method of claim i, wherein the scaling comprises: I: the original size of the 4 pieces of visual content material; and determining the performance of the content data to determine The portion visualizes the object; wherein the performance description includes at least the height or width of the display to scale the outer: ', S enemy includes: based on the determined target drawing size 12 · For example, the content of the silkworms knows the content. The target method of item 11, wherein the height or the width of 94303 50 200850010 degrees is a few pixels. 13. If the scope of the application for patents is 11th, the target of the signing and the target of the child's judgment (4) to scale the part of the visual content data is: the part of the visual content data is directly scaled from the original size to ^ Target edge map size. The method of claim 5, wherein the zooming the portion of the visual content based on the determined target drawing size comprises: performing the partial visual content from the original size to the medium size Medium zoom, then scale the portion of the visual content from the size of the shot to the target map size. K. The method of claim 14, wherein the method further comprises: determining whether the height or width of the original size is less than the medium height or width. 16. The method of claim 14, wherein the determining whether the ratio of the original size to the target drawing size is greater than a predetermined threshold. 17. The method of claim i, wherein the method further comprises: quantifying the portion of visual content data based on the performance description, wherein the performance description includes a maximum number of colors that the display of the target device can support, and the target device The range of brightness that the display can support, or the pixel size of the display of the target device, and wherein the quantization is prior to the transmission. 18. The method of claim 1, wherein the method further comprises: determining an original format of the portion of the visual content data; determining a target format of the portion of the visual content material based on the performance description of the target device, wherein the performance Depicting a format or decoder that is at least supported by the target device; and 51 94303 200850010 formatting the visual content into a format supported by the target device or formatted into a format that can be depleted by the decoder supported by the target device, Wherein the formatting is prior to the transmission. 19. The method of claim 54, wherein the transmitting the visual content data comprises: 'determining a manner in which the plurality of data files can be transmitted based on the performance description The portion of the visual content material, wherein the performance description includes at least a cache size or processor performance of the target device; and transmitting the portion of the visual content data to the target device in a plurality of poor file formats. The method of claim 19, wherein the transmission is more than 俦, including: visualizing the portion The data is packaged into a plurality of sequential data 2, wherein each of the data files includes a segment of the visual content 4 and a sequence identification number 1 for enabling the segments to be downloaded in sequence, ★ Saki (4), and wherein each segment The size is based on the performance description. j疋暴 21·If the patent application scope includes: the method 'where the transmission is based on the performance description to determine that a part of the visual content can be transmitted by a single data string Data, the cache size or/or medium of the target device of the work, the performance description includes at least the performance of the processor or the processor; and transmitting the part of the visual content to the 94303 52 200850010: The database of the target device information is obtained. 22. The method of claim 1, wherein the method includes receiving the performance description, or including the user description to the performance description. 1 · $心忐忐 includes, at least, compression of this part of the visual content. 24·If you apply for the patent scope 1 ^ ,, where the content comes It includes a first file, and wherein the multiplexing method comprising: Obtaining the performance description of the target device, wherein the performance description briefly describes the size of the screen of the target device in pixels; and generating a second file including the portion of the visual content material that has been scaled, wherein The zooming includes: scaling the portion of the visual content material to a pixel size substantially equal to at least one size of the screen size of the target device, and wherein transmitting the visual content material to the target device comprises: via a wireless network And transmitting the second file including the portion of the visual content material that has been scaled to the target device. A format and conversion system comprising: an interpreter configured to read a content source file to obtain a plurality of text-based formatting instructions and visual content for at least one content element Information; a translator configured to translate the text-based formatting instructions of the various content elements into a value-based formatted instruction that can be interpreted by the target device; 53 94303 200850010 Data File Converter, Sisters can, you, and the two groups of blame can at least ^_ σ _jl. jh; size to scale at least part of the visual content based on the size of the target device; and, π j loses benefits, ' It is configured to transmit the numerically based format 曰7 and visual content material to the target device. The system of claim 25, wherein the interpreter is determinable for determining the relative position of at least one content element on the display of the display device. 27t application of the patent scope of item 26, in which 'the translator is set to define the position of each content element on the display in the value-based formatting instructions. 28. If the patent application scope The system of item 27, wherein the defined position for each content element is defined as a relative position. 2 π Patent Range Item 25, wherein the interpreter is provided by the group to provide horizontal or vertical At least one of the dimensions to the data file converter is used to scale the visual content. 3. A system as claimed in claim 29, wherein the size is measured in pixels. A system of 30 items, wherein the data is converted: the visual content can be converted from a compressed format to an uncompressed or non-encoded format, and reduced according to one of the horizontal or vertical pixel metrics. The number of pixels in the uncompressed or non-encoded format maintains the original aspect ratio of the visual content material. The system of claim 25, wherein the system is a group of 94303 54 20 0850010: In the two rounds of 'to the evening', in the middle, the translator is configured. In the first one, the text-based formatting instructions can be translated into = smart formatting instructions to provide editable The content source of the format is 'and the 'the data (4) converter is configured to be scaled in the second round = the target device is scaled and pressed _ editable format. (4) 25m its towel 'these based on the value of 4 The instructions are all binary format instructions. f 3 4 · If the patent application scope is crying s money 'the towel, the data file is converted, the blame can at least compress the part of the visual content data. 5·=:= circumference 25th item The system, wherein the interpreter system, the performance description of the target device by the second:=:, (4) performance=the size in pixels of the display on which the target is displayed~, the content The source file includes a first-order converter configured to convert the red, the W 4 to a size of the pixel size, in which the device is reconfigured to generate a (4) The second document for converting the volume of the information and the Λ 2 Ϊ The wireless network transmits the second configured to transmit the visual content material to the target device. The μ target device is used to optimize the supply wheel and system, and the method includes: &amp; clothing The rich content is used to obtain at least one internal content element from the content source, including several text-based elements, various materials, ·, and, and the visual and internal 94303 55 200850010 two for the text-based Formatting the translated instruction into a component-based formatted instruction that can be interpreted by the target device; for scaling at least a portion of the component of the viewable valley data based on at least one size of the display of the target device, and , 'times', used to pass the value-based formatting instructions and visual content to the target device so that the target device can trace the content source 37. As in the system of claim 36, the basin In the middle, the tenth, the 汍 汍, the content source Baodi a file, and wherein the method includes: a component for obtaining a performance description of the target device, the performance description Briefly describing the size of the display symplectic:: of the target device; and 诼I is a pixel for generating the content size of the portion of the visual content data including the component of the second file that has been scaled, wherein The zooming member includes a portion for viewing the portion Scaled to substantially equal to the apparent size of the target device, and the path to transmit the two files thereto, the transmission member including a target for including the portion of the visual content that has been scaled via the wireless network The components of the device. The computer-readable media program instructions, including a plurality of programming instructions, enable the machine to: 94303 56 200850010 translate the text-based formatting instructions into a numerical format that can be interpreted by the target device And translating at least a portion of the visual content data based on at least a size of the display of the target device, and transmitting the value-based formatting instructions and the visual content data to the target to cause the target to be The content of the content can be traced. 39. For example, please refer to the computer-readable media of item % of the patent scope, wherein the source includes a first file, and wherein the media includes a plurality of instructions, the execution of the programming instructions enables the machine to: "Object 2: Performance description of the target device, wherein the performance description is simple (four) standard W display (four) the size in pixels; and the text m includes the second content of the portion of the visual content data that has been scaled; The project includes scaling the portion of the visual content data to a pixel size of the size of the display that the target hits, so that the visual content is included in the image: The transmission system is configured to transmit the second file including the data to the target device by the hot wire network. The image is included in the image. 40. A method includes: analyzing the first file.苴中,兮, and, among the labels; at least: one of the collections 'retrieve the second file; the file, the integration of the first file and the second, the second t-technology of the file Department includes modifying the first article At least one of the tags includes the second file referenced by 94303 57 200850010; and the private device is checked via the wireless network. x transmits the third file that has been generated to the target 41. In the method of one or x, wherein the at least one label and the medium of m, the formatting language is written to rewrite the third file, including: reformatting the at least one label to be based on A binary format language. A system comprising: a μ interpreter configured to parse a first file, wherein: the flag = includes a plurality of tags 'and therein, At least one of the tags = the second file, and the second file is retrieved; the strain φ beetle &amp; conversion is configured to modify the first article - at least one tag to include The second file referred to is the third file of the first file and the second file; and the device configured to transmit the third file that has been produced via the wireless network to Target device. 43· The system includes: - a = component that parses the first file, wherein the first file includes two irons, and wherein at least one of the tags refers to a second component for retrieving the second file; a third text component for generating the integration of the first file and the second file, wherein the generating system comprises modifying at least one tag in the first file to include the second file referenced; and 94303 58 200850010 is used to transmit the components of the third target device that have been generated via the wireless network. 44.- A computer-readable media program command including a plurality of (4) commands enables the machine H to be able to edit and: first The document, wherein the first document includes a multi-clearance, and wherein the / / / 知, , ..., at least one of the 参照 参照 参照 参照 第二 第二 第二 第二 第二 第二 ; ; ; 产生 产生 产生 产生 产生The yak 'retrieves the piece, 1 by the brother-document and the second file of the second file, wherein the production system includes a syllabic article to include the reference to the second file. At least one device via a wireless network To pass the third round of the generated files to the target 9430359